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Gamma-Ray Astronomy with the ARGO-YBJ experiment

Gamma-Ray Astronomy with the ARGO-YBJ experiment. G. Di Sciascio INFN – Sez. Roma “TorVergata”. On behalf of ARGO-YBJ Collaboration. 5th AGILE Workshop 2008 – Frascati, June 12-13, 2008. Excellent complement to AGILE/GLAST to extend satellite measurements at > 100 GeV.

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Gamma-Ray Astronomy with the ARGO-YBJ experiment

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  1. Gamma-Ray Astronomy with the ARGO-YBJ experiment G. Di Sciascio INFN – Sez. Roma “TorVergata” On behalf of ARGO-YBJ Collaboration 5th AGILE Workshop 2008 – Frascati, June 12-13, 2008

  2. Excellent complement to AGILE/GLAST to extend satellite measurements at > 100 GeV Why is this talk relevant to AGILE/GLAST ? • ARGO detects air-shower particles at ground level • ARGO is a wide field of view gamma-ray telescope which operates in “scanning mode” • ARGO is optimized to work with showers induced by primaries of energy E > a few hundreds GeV This low energy thresholdis achieved by: • operating atvery highaltitude (4300 m asl) • using a“full coverage” detection surface 5th Agile Workshop 2008

  3. The Yangbajing Cosmic Ray Laboratory ARGO Tibet ASγ The ARGO-YBJ experiment Longitude 90° 31’ 50” East Latitude 30° 06’ 38” North 90 Km North from Lhasa (Tibet) An Extensive Air Shower detector exploiting the full coverage approach at very high altitude, with the aim of studying • VHE g-Ray Astronomy • Gamma Ray Burst Physics • Cosmic Ray Physics 4300 m above the sea level 5th Agile Workshop 2008

  4. 12 RPC =1 Cluster ( 5.7 ´ 7.6 m2 ) 99 m 74 m Central Carpet: 130 Clusters 1560 RPCs 124800 Strips 78 m 111 m Layer of RPC covering 5600 m2 (  92% active surface) + 0.5 cm lead converter + sampling guard-ring 8 Strips = 1 Pad (56 ´ 62 cm2) 10 Pads = 1 RPC (2.80 ´ 1.25 m2) Gas Mixture: Ar/ Iso/TFE = 15/10/75, HV = 7200 V BIG PAD Read-out of the charge induced on “Big-Pads” ADC RPC

  5. Shower Mode: Coincidence of different detector units (pads) within 420 ns Trigger : ≥ 20 fired pads on the central carpet (rate ~4 kHz) Detection of Extensive Air Showers (direction, size, core …) • Aims: • Cosmic Ray physics • VHE γ-astronomy • Scaler Mode: The counting rates (Nhit ≥1, ≥2, ≥3, ≥4) for each cluster is recorded every 0.5 s, within 150 ns. Measured counting rate: ~40KHz, ~2KHz, ~300Hz, ~120Hz. No information on the arrival direction and spatial distribution of the detected particles. Threshold energy ≈ GeV. • Aims: • flaring phenomena (high energy tail of GRBs, solar flares) • detector and environment monitor Operation Modes 5th Agile Workshop 2008

  6. First Results • At present: • Stable Data Taking since Nov. 2007 (d.c. > 90%) with the full detector Central Carpet (130 Clusters) + Guard Ring The analyses presented here are based on data collected in the period July 2006-April 2008. These data were mainly used to calibrate and debug the detector and the DAQ. Despite thehighly fragmented and preliminarydata taking (up to Nov. 2007), some remarkable results are available in different items even with small duty-cycle due to very aggressive cuts applied to select “good” data • Moon Shadow • Gamma ray sources • High Energy GRBs • p-air cross section • Antip/p ratio measurement • … 5th Agile Workshop 2008

  7. Size of the deficit • Position of the deficit Angular Resolution Pointing Error Ion spectrometer Energy calibration The Moon Shadow Cosmic rays are hampered by the Moon Deficit of cosmic rays in the direction of the Moon Geomagnetic Field: positively charged particles deflected towards the West and negatively charged particles towards the East. Moon diameter ~0.5 deg The observation of the Moon shadow can provide a direct check of the relation between size and primary energy 5th Agile Workshop 2008

  8. Nhit > 40 θ < 50° ≈16 σ E50≈ 1.8 TeV Emode ≈ 1 TeV (for protons) ≈16 σ Moon Shadow 2008 ≈100 h/month ≈ 10 s.d./month All triggered events 2008: ~292 hours 5th Agile Workshop 2008

  9. Moon Shadow analysis The displacement towards West is due to the Earth’s Magnetic Field Residual systematic shift towards North of about 0.2 deg 5th Agile Workshop 2008

  10. γ-ray astronomy Continuous monitoring of the sky in the declination band-10°<  <70° • In this preliminary analysis • All events are considered without any internal shower selection • No lead converter on the RPC carpet (with Pb the ang. resol. improves by about 50% at TeV energies) • TheCR background rejection is performed by exploiting • the good angular resolution of the detector • the fact that at very high altitude the trigger efficiency of TeV γ-rays is about 2 times larger than protons’ one at fixed energy NO additional γ/hadron discrimination algorithms have been yet applied (Qf ≈ 1.5 – 1.8 with “topological”-based algorithms) 5th Agile Workshop 2008

  11. Nhit > 100 θ < 40° Eγ50 ≈ 2.4 TeV, Eγmode ≈ 700 GeV Sky map ≈6 σ δ (deg) The Crab R.a. (deg) Crab Nebula 2007 days 25 – 110:241 hours 5.8 hours/day Preliminary “quality cuts” applied to optimize the signal based on:χ2, Rcore, particle density Only Central Carpet in DAQ ω = 1.5° 66% ev ARGO observed Crab Nebula at ≈6σ in ≈ 40 days 5th Agile Workshop 2008

  12. Nhit > 100 θ < 40° Eγ50 ≈ 2.4 TeV, Eγmode ≈ 700 GeV Sky map ≈4 σ δ (deg) R.a. (deg) Crab Nebula 2008 Preliminary days 1 – 104:450 hours Central Carpet + Guard Ring in DAQ NO “quality cuts” yet applied 5th Agile Workshop 2008

  13. Mrk 421 ASM / RXTE days 187-245 (137 hours) ≈6σ δ (deg) R.a. (deg) Npad > 60 Mrk 421: 2006 ARGO started recording data with the full central carpet during the X-ray flare of Mrk421 in July 2006. Evidence for TeV emission in coincidence with the X-ray flare The detector was in its commissioning phase, therefore new analyses are in progress to properly evaluate the statistical significance of the observation. Eγ50~1.6 TeV, Eγmode~500 GeV 5th Agile Workshop 2008

  14. days 1-104 (472 hours) Mrk 421 ASM / RXTE ≈6σ δ (deg) R.a. (deg) Npad > 60 Mrk 421: 2008 Preliminary Evidence for TeV emission in coincidence with the X-ray flare Feb. - April 2008 Deeper analysis and further data integration are in progress Eγ50~1.6 TeV, Eγmode~500 GeV 5th Agile Workshop 2008

  15. RXTE counting rate day average RXTE ev/hour days from 1/1/08 ARGO Correlation with X-rays in 2008 Nhit >100 Eγ50 ≈ 2.4 TeV, Eγmode ≈ 700 GeV Preliminary Correlation ? maybe… 5th Agile Workshop 2008

  16. 38 GRBs triggered by satellites (mainly SWIFT) analized inthe period Dec. 2004 – March 2008(ARGO f.o.v.: θ < 45°) NO excess observed Search for GRBs with Scaler Mode The counting rates (Nhit ≥1, ≥2, ≥3, ≥4) for each cluster is recorded every 0.5 s. No information on arrival direction Trigger by satellite is needed to detect a transient emission as a statistically significant and coincident excess of events over the uniform bkg due to CRs The corresponding upper limits on the fluence are of the order of 10-6 – 10-4 erg/cm2in the 1 – 100 GeV range, well below the energy range explored by the present generation of Cherenkov telescopes. We expect ~1 EGRET-like GRB (with spectrum >200 MeV) to occur in the ARGO f.o.v. (θ < 45°) in 1 year. 5th Agile Workshop 2008

  17. Conclusions • Detector setup: • The ARGO-YBJ detector has been completely installed • Stable data taking since Nov. 2007 (d.c. > 90%) with the full detector • Lead plate installation during 2008 • Results from preliminary analysis: • Moon shadow observed at >9 s.d. level per month • Preliminary antiproton/proton ratio measurement at ≈1 TeV • Mrk421 flares observed in July-August 2006 and Feb-April 2008 at > 5 σ • Crab Nebula observed in 2007 and 2008 at >4 σ in ≈ 50 days (no γ/h discrimination yet !!) • Preliminary “Hot Spots” catalogue (>4σ) in preparation • Search for high energy tail of GRBs in the 1-100 GeV range in progress • Inelastic p-air cross section measurements at √s~ 0.1 TeV 5th Agile Workshop 2008

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